Method of and apparatus for closing and sealing containers



Feb. 23, 1954 J. A. ZINN, JR., ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS l4 Sheets-Sheet 1 Filed April 19, 1950 INVENTORS. Jaliua Q Zzinm l BY Gil/T221525 572w 7734 MW, Mum J g M '5 Feb. 23, 1954 J, zmN, JR, ET AL 2,669,815

METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Filed April 19,, 1950 14 Sheets-Sheet 2 INVEIYTORS.

BY Cari 49E 57262211,

Feb. 23, 1954 J. A. ZINN, JR, ET AL 2,669,815

METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS l4 Sheets-Sheet 5 Filed April 19. 1950 INVENTORS. J Z zjnnL/i', BY (202 153 Shaw, I/WMM Wm fif 1954 J. A. ZINN, JR, ET AL 2,669,8

METHOD 0F AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Filed April 19, 1950 14 Sheets-Sheet 4 Feb.-23,' 1954 J. A. ZINN, JR., ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Filed April 19, 1950 14 Sheets-Sheet 5 1 7 JLZZusCZ 2Z7? BY Czzrzz'sli 5720,10, wmwi gy Feb. 23, 1954 J. A. ZINN, JR, ET A1. 2,669,315

METHOD OF AND APPARATUS FOR CLQSING AND SEALING CONTAINERS Filed April 19, 1950 14 Sheets-Sheet 6 Feb. 23, 1954 J. A. ZINN, JR., ET AL METHOD OF AND APPARATUS FOR ChOSING AND SEALING CONTAINERS l4 Sheets-Sheet 7 Filed April 19, 1950 mmyrons. JZLZL'QSLZ Z 0272.5",

BY Caz/712195 1954 J. A. ZINN, JR, v ET AL ,669,8

METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Filed April 19, 1950 14 SheetsSheet 8 I l I l L INVENTORS. JLLZLZZS Q ZLn n, J53,

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ZL'nnJi', m! Czzriz'sfl 5 7242212 Feb. 23, 1954 J. A. .ZINN, JR, ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS 14 Sheets-Sheet 1O Filed April 19, 1950 @LZL'W CarZzIsB J. A. ZINN, JR, ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Feb. 23, 1954 14 Sheets-Sheet 11 Filed April 19, 1950 g I I i FF '5 i i l I II I M' Ii I 1 I II INVENTORS. Julius CZ. Z BY @TZZSfl Shall 7%, WM k gw 14' Sheets-Sheet l2 INVENTORS. JLLZLLLSQZ BY curfilsfifihazu, mm,

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J- A. ZINN, JR.. ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Feb-'23, 1954 Filed April 19, 1e5o Feb. 23, 1954 J. A. ZlNN, JR., ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Filed April 19, 1950 14 Sheets-Sheet 1.3

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Feb. 1954 J. A. ZINN, JR, ET AL METHOD OF AND APPARATUS FOR CLOSING AND SEALING CONTAINERS Filed April 19,- 1950 14 Sheets-Sheet 14 'I'NVENTORS. Julius Z in WW y mmw

Patented Feb. 23, 1954 METHOD OF AND APPARATUS .FQRCLQSING AND SEALING CONTAINERS Julius A. Zinn, 1Jr., and OurtisB. Shaw, Chicago, 111.;; said Shaw assignorqtosaidzinn Application April 19, 1950, Serial No. 155,736

The present invention relates to methods of and apparatus for closing the sealing containers, and, more particularly, to methods andapparatus for closing and sealing parafilned or similarly treated paper board containers of the type having an open mouthed portion scored along predetermined fold lines-to form a fully depressible bellows type end closure.

Although not specificallylimited thereto, methods and apparatus embodying the present invention are particularly designed for use with, and will behereinafter described in connection with containers of the type disclosed in a prior Patent No. 2,412,666 issued December 17, 1946, to Julius A. Zinn, Jr. Such containers, which preferably are formed from moisture proofed and preferably paraffin coated or similarly treated pasteboard cartons, are provided with fully depressible bellows type closures in which the end walls'of themouth portion are collapsed inwardlyand thenclosed to form with theside walls of the mouth portion anelongated upstanding closure rib. The closurerib thus formed is preferably sealed 'by folding thereover alfiap formed as an extension-of one of the side walls of the mouth'portion. :In order to reduce leakagedifiiculties and to produce well sealed containers. on a mass production'basisitis desirable to provide fully: automatic apparatus for. closing and sealing such containers. For example, a particular method of and apparatus for automatically closingandsealingicontainers of Jthe above type is disclosed inan application of Julius A. Zinn, Jr..-- SerialNo. 72,828which was filed on JanuaryxZfi, 1949, now vU. S; Patent No. 2,575,544.

It has .been found, however, in apparatus of the .type described in the above application, that the folding-over, ,orlplowing down of: the sidewalls of Lthe mouth portionfrom a vertical'to a substantially horizontal position tends :to produce buckling of the containerduring travel through the apparatus. Such buckling is due inpart to the-fact ,that engagement of the front end. of the movingcontainer with the plowing. surface causes the'back end .of the ,containerto ride up, thereby buckling the intermediate portion of the container so that a weakened and unsatisfactory container is produced. Further, buckling of the container interferes with subsequent closure flap folding and sealing operations due to certain parts of the container being out of alignment with subsequent ,folding, and sealing apparatus. Accordingly, it is an objector ourinvention ,to provide automaticclosing and sealing apparatus wherein 'thereis provided novel mechanism for effecting substantially simultaneously the precracking of the bellows mouth portion partially to collapse the end panels along the score lines thereof and the folding inwardly and downwardly of the side panels of the mouth portion to form a substantially flat topped container having a transversely extending upstanding closure rib.

It has further-been found that the direct application of sealing heat and pressure to the fully formed closure rib, which is necessary to produce a liquid tight seal thereof tendsto produce scorching of the outer surface of the rib due to the intense heat necessary to penetrate theinner foldsof the closure rib. In accordance with a further object of our invention, there is provided means forpreheating the fully formed closure rib to a temperature sufficient to melt the parafiin coating of the paperboard andto soften the hot melt adhesive coating thereof for a period suflicient to penetrate to the inner folds of the closure rib so that the subsequent application of sealing heat and pressure does not produce-scorching of the outersurfaces of the rib during the pressure sealing operation.

It is a still further object of the invention :to provide fully automatic closing and sealing apparatus of theabove-describedtype wherein the fully formed closure rib is preheated before sealing thereof andwherein means are provided for insulating the substantially horizontal side panels of the mouth portion of the container during both "preheating and sealing operations to prevent scorching and removal ofthe paraffin therefrom.

Additionally, it has been found in apparatusof the above-describedtype that whileit is necessary to maintain the bellows fully depressed during flap folding and sealing operations, when this is -done'byrestraining the side-panels from upward movement the -overlying'flap of-theclosure rib tends to open up, due to-the'downward pressure on the side panel associated therewith, thus producing an air pocket at the top of the closure rib and consequently an imperfect seal thereof. It is, therefore, another objectof our invention to provide means for -maintaining the bellows fully depressed during preheating and sealing operations by the application ofpressure solely to the top of thefully formed closure rib, thereby to maintain the folds of the closurerib in contiguity with one another and to provide a liquid-tight closure ,SBQ].

It is still further object of the invention to provide automatic closing and sealing apparatus of the above-described type wherein novel mechanism is provided for exerting pressure downwardly upon the top of the fully formed closure rib of the container while preheating the side walls of the closure rib.

According to another object of the invention, there is provided novel conveyor apparatus for automatically receiving empty containers, conveying them through the closing and sealing apparatus and automatically discharging the filled, closed and sealed containers.

According to a further object of the invention, there is provided new and improved conveyor apparatus adapted for use in automatic closing and sealing apparatus of the above-described type wherein containers of widely varying dimensions may be accommodated and wherein allowance is made for bulging of the side walls of the container when filled with liquid.

It is a still further object of the invention to provide in fully automatic container closing and sealing apparatus, means for preheating the bellows portion of the container along the score lines thereof immediately before collapsing of the bellows to provide more eihc ent forming of the mouth portion to a substantially fully depressed bellows type end closure.

It is a further object of the invention to provide fully automatic closing and sealing containers of the abovedescribed type wherein heat is concentrated upon the score lines of the bellows mouth portion of the container to facilitate prelimnary forming of the mouth portion of the containers.

The invention, both as to its organization and method of operation, together with further objects and advantages thereof, will best be understood by reference to the following specification ta"en in connection with the accompanying drawings, in which:

Fgs. l(a)-l(b when arranged in staggered relation in the order indicated, with 1(a) at the upper left corner, illustrate in perspective the general character of apparatus suitable for carrying out a closing and sealing method embodying the present invention;

Fig. 2 is a side elevational view of a complete closing and sealing apparatus embodying the principles of the present invention;

Fig. 3 is a plan view of the complete apparatus of Fig. 2;

Fig. 4 is a timing diagram illustrating the sequence of steps performed on containers traveling irough the apparatus of Fig. 2;

Fig. 5 is a detailed side elevational view of a portion of the conveyor apparatus of Fig. 2;

Fig. 6 is an enlarged side elevational view of a single container basket;

Fig. 7 is a fragmentary sectional view of the member of Fig. 6 taken along lines 'i-i thereof;

Fig. 8 is a plan view, partly in section of the apparatus of Fig. 6;

Fig. 9 is a sectional view of a preheating chamber of the apparatus of Fig. 2;

Fig. 10 is a plan view partly in section of the preheating chamber of Fig. 9 taken along the lines iG-i 6 thereof;

Fig. 11 is a sectional end view of the chamber of Fig. 9 taken along the lines iiii of Fig. 10;

Fig. 12 is a side elevational view of a portion of the apparatus of Fig. 2 following the preheating chamber of Fig. 9;

Fig. 13 is an end view partly in section of the apparatus of Fig. 12 taken along the lines 13-43 thereof;

Fig. 14 is an enlarged side elevational View of a portion of the apparatus of Fig. 12;

Fig. 15 is a detailed side elevational view of the side folding mechanism of Fig. 12;

Figs. 16-18 are end views of the side folding mechanism of Fig. 15 illustrating the sequence of movements thereof;

Fig. 19 is a sectional end view of a portion of the apparatus of Fig. 12 taken along the lines l9--i 9 thereof;

Fig. 20 is a sectional end view of another portion of the apparatus of Fig. 12 taken along the lines 2ii2fl thereof;

Fig. 21 is a side elevational view of a portion of the apparatus of Fig. 2 immediately following the plowing mechanism of Fig. 20;

Fig. 22 is a plan view of a portion of the apparatus of Fig. 21;

Fig. 23 is a sectional end view of a portion of the apparatus of Fig. 21 taken along the lines 23-423 thereof;

Fig. 24 is a plan View partly in section of afurther portion of the apparatus of Fig. 21;

Fig. 25 is a sectional end view of the apparatus of Fig. 23 taken along the lines 2525 thereof; and

Fig. 25 is a side elevational view of the discharging portion of the apparatus of Fig. 2.

Referring now to the drawings, the invention is illustrated generally in Figs. 1(a) through 1(1)) inclusive as applied to a series of containers it) of the type disclosed in the aforesaid prior,

patent, which containers are conveyed by suitable apparatus to be described in more detail hereinafter, in the direction of the arrow H, the particular positions at which various steps in the closing and sealing operations are performed being illustrated as positions A through H, inclusive. The containers are preformed to provide a substantially rectangular body portion surmounted by an open mouthed portion comprising scored inwardly collapsible end panels [2, l3 and su-tably scored inwardly foldable side panels ii, iii, each of the panels having an upper edge portion of the inner surface thereof coated with a suitable adhesive coating of the hot melt type as indicated by the reference numeral iii. In addition, the end panels I2, [3 and the side panel M is provided with a similarly coated portion on the outer surface thereof as indicated by the reference numeral Ii, and the side panel {5 includes an upstanding closure flap N3, the inner surface of which is likewise coated with a hot melt adhesive. It is the usual practice, particularly where the containers are to be employed for liquid or semi-liquid materials, to form the container from suitably shaped blanks to which the adhesive has been applied in the portions l6-l8 and then to coat by dipping or another suitable impregnating process the entire container with paraffin Or another similar waterproofing material. The waterproofed container thus formed is then ready for filling, closing and sealing, this being accomplished by collapsing the end panels i2 and i3 inwardly and folding the side panels M and i5 inwardly and downwardly so that the adhesive coated edge portions of the panels form an upstanding closure rib over which the flap it is then folded preparatory to the final sealing operation.

In the apparatus of the present invention, the open mouthed container Iii, which is receivedby suitable conveyor apparatus to be described in more detail hereinafter, is carried to position A f wherein suitable filling apparatus indicated gen erally at 2.0 is utilized .to fillthe containerto the score line 2| along which the bellows type end closureis formed. The filled container then proceeds to position B in which area the side and end panels of the mouth portion of the container are subjected to heat through the medium of suitable heat sources illustrated generally in Fig. 1(a) as the radiant heat lamps 22, 23. The heat lamps 22, 23 arejpreferablymashed by any suitablemeans to concentrate the heat upon the side and end panels of the containers and particularly to concentrate the heat upon the score lines of these portions of the container. The heat transmitted to the score lines of the mouth portion of the container during its travel through the zone illustrated as position B is preferably sufli" cient to soften theparaffin along the score lines of the mouth portion of the container'so as to facilitate the initial cracking or preforming of thebellows type end closure.

Containers, the mouth portions of which have been preheated at position B, are immediately conveyed to position C wherein a pair of fingers 24, 25 move inwardly and downwardly to engage the endpanels substantially at the apex of the triangular shaped score lines formed in the end panels, the points of contact of the fingers PM, 25 with the end panels being illustrate-d in dotted lines at 2B. Inasmuch as the fingers it, strike the end panels of the open mouthed portion sufficiently to crack the container along the preformed score lines thereof, these fingers are termed cracking fingers.

Substantially simultaneously with the cracking of the end panels by the fingers 24, 25, a pair of side folders indicated generally at 23 are moved inwardly to engage the upstanding side panels of the mouth portion of the container and are pivoted endwise to a substantially horizontal position so that the side panels of the mouth portion are folded fiat and the adhesive coated edge portions of the panel form an upstanding closure rib. Preferably the side folders 2'5, 2t each comprise a series of rolls which are mounted for-pivotal movement as a unit and which engage the outer surfaces of the side panels in a manner tobe described more fully hereinafter. The pre heated mouth portion of the container is thus preformed by means of the crashing fingers 24, 25 and side folders 2?, 25; to a shape substantially similar to that of the finished product. preheating the mouth portion of the container immediately before the preforming thereof and after the filling of the container, the amount of heat supplied to the container mouth portions and the length of time the containers are subjectee to heat iskept at a minimum.

With the bellows end closure in substantially fully depressed condition, the containers are then conveyed .to position D wherein suitable plow members illustrated generally at as, 3 l, and positioned along the line of travel of the upstanding closure rib 32 of the container, engage the up standing closure flap is and fold the same to a substantially horizontal position. The containers are then conveyedto position E wherein a further plow mechanism illustrated generally at 35 engages the horizontally extending portion of the closure flap it and folds it over the remaining sections of the closure rib to provide a fully formed closure rib which is ready for sealing.

Th containers are then conveyed to position F at which position the sides of the upstanding closure rib'3'2 are preheated by means of a series of suitable heated rollers 36 ands'l. The rollers 36,37 engage the sides ..of:the closure-.rib fltthus preheating the sides of the closurearib before-the application of sealing heat and pressure so that the parafiin coating of the members forming the closure rib is melted and the hot melt adhesive is softened. By such an arrangement, the subsequent application of sealing heat and pressure does not produce scorching of the outer surfaces of theclosure rib dueto the factthat individual sections of the multiple thickness closure rib have been preheated to a uniform temperature close-to that necessary to achieve complete sealing.

, In order toprovide a uniform sealing action of the upstanding closure rib, one roller of each of the series of paired rollers, as for example, the roller .35, isprovided with a flanged portion 39 which extends over the top of the closure rib and holds the'bellows in a fully depressed condition. There is also provided on the bottom surfaces of the series of rollers insulating disks which substantially prevent the transmission of heat from the rollers to the horizontally folded side panels of the containers as will be describedin more detail hereinafter. The rollers are thus masked from contact with any portion of the container except the sides and top of the closure rib fit.

In considering the operation of the flanged preheating rollers E li-31 illustrated in position :F of Fig. 1(2)), it is evident that the multi-section closure rib 32 is of substantial width and if the bellows type end closure is maintained fully depressed by exerting pressure upon the horizontally extending sid panels, the overlying closure flap is has a tendency to be pulled back .over the remaining portion of the rib so as to .form an air pocket between the top of the.multi-section portion of the rib and the undersurface of the closure flap iii. However, by exerting pressure upon the top of the closure rib, that is, upon the uppermost surface of the closure flap I8, to maintain the bellows fully depressed the formation of an air pocket between the closure nap and the multi-section rib is substantially prevented. There is thus provided an airtight and liquid proof seal between the individual sections of the closure rib. Also, by exerting pressure on the top of the closure rib during preheating thereof, which pressure is illustrated in position F as being applied by the of successive ones of the pairsof rollers the top portion of the overlying flap is is ironed down so as substantially to conform to the relatively thick portion of the closure rib thus facilitatinga uniform, liquid-tight seal when the closure rib is subsequently subjected to sealing heat and pres sure. In this connection it will be understood that other suitable means may be provided for exerting pressure on the top of the closure rib 32 suchas, for example, a stationary plow member adapted to engage the top surface of the ribf However, the provision of rib engaging flanges on certain ones of the rollers gives the necessary restraining force to accomplish the above-described scaling action without materially increasing the cost and complexity of the apparatus.

At position G the pressure rolls ll, 42, which are heated by suitable means to be described in more detail hereinafter, engage the sides of the closure rib 32 and exert sufficient pressure thereon and apply sufficient heat thereto tomelt the softened hotmelt adhesive thereby to form a uniform, liuuicl-tightseal of the closure rib .32. One of the pressurerollers, asfor-example, roller $2, is provided with an overhanging flange por tion 48 which engages the top of the closure rib 32 to maintain the bellows end closure fully depressed. Immediately following the pressure sealing operation at position G, the containers are conveyed to position H wherein opposed series of cooling rollers indicated generally at 45, 46 which are substantially similar to the preheating rollers of position F, engage the sides of the fully formed and sealed closure rib 32 to cool and set the sealed closure rib. As in the case of the preheating rollers, certain ones of the cooling rollers 45, 46 are provided with flanges which engage the top of the closure rib 32 and maintain the bellows fully depressed during the cooling and setting operation.

Still considering the fully automatic closing and sealing apparatus of the present invention as a whole, but referring more specifically to apparatus utilized to accomplish the steps perspectivelyillustrated in Figs. 1(a) and 1(1)), there is illustrated in Fig. 2 a complete apparatus suitable for accomplishing the above-described closing and sealing operations. Thus, referring to this figure, the complete apparatus is illustrated as comprising a supporting table 60 on which is positioned the apparatus of the present invention suitable to perform the proper closing and sealing operations upon the containers. The supporting table 60 is provided at one end thereof with a container receiving area 8! in which may be deposited empty open-mouthed containers from any suitable source. The empty containers are deposited in the area ti on a suitable conveyor apparatus, the conveyor being illustrated generally as comprising sprocket wheels 52 which engage an endless conveyor chain or belt 63, the chain 63 serving to support the container receiving baskets of the apparatus. To drive the chain 63 there is provided a suitable driving source (it which is illustrated as connected to a sprocket wheel 62 by means of a driving chain 55. Containers which are deposited on the conveyor belt mechanism are moved continuously forward to the filling mechanism 29 wherein they are filled with the desired liquid or other material.

The filled containers then pass to a first preheating chamber 66 wherein the score lines of the mouth portion of the container are heated to facilitate bending, or cracking, thereof as described in connection with position B illustrated in Fig. 1(a). Containers, the mouth portions of which have been preheated, are then conveyed to the end panel cracking and side panel folding mechanism indicated generally at Bl. In order properly to time the operation of the cracking fingers and side folders of the mechanism 6! with the moving containers, there is provided a timed drive shaft 68 which is directly connected with the shaft of the driving motor 64 through the chain 69.

Containers which have been preformed by the cracking and folding mechanism 6'! are then conveyed to suitable plowing mechanism 10 in which the closure fiap of the upstanding closure rib of the container is folded down to form a complete closure rib ready for heating and sealing thereof. Containers in which the closure rib is fully formed are then conveyed to a second preheating chamber "H in which heated rollers engage the sides of the closure rib to melt the parafiin coating and to soften the hot melt adhesive of the rib in the manner described in connection with position F illustrated in Fig. 1(b).

The containers are then passed through heated pressure rollers 12, the rollers 12 being driven by means of a suitable geared drive shaft 13 which is connected. to the driven sprocket wheel 62 by any suitable means such as belt 14 or the like. To vary the pressure exerted by the rollers 12, and accommodate containers of varying thicknesses, there is provided an adjusting knob 15 which operates to adjust the separation between the pressure rollers 12. Containers having completely sealed closure ribs are then passed through a cooling chamber 76 wherein the closure rib is cooled by contact with suitable rollers as has been described in connection with position H illustrated in Fig. 1(b) The sealed containers which emerge from the cooling chamber 16 are then conveyed to the terminus of the conveyor chain from which they are pushed to form a solid line H of filled containers, the container line being guided by means of side rails '28. The side rails 18 guide the solid line of filled containers to the edge of a freely rotatable turntable l9; pushing onto the turntable of successive ones of the filled containers and thus causing the turntable to rotate so as to provide automatic loading thereof. The filled containers may then be removed from the loaded turntable either manually or by any suitable automatic mechanism.

In Fig. 3 there is illustrated in plan view the complete apparatus of Fig. 2. This figure illustrates more clearly the in-line arrangement of the filling, preheating before folding, folding, preheating before sealing, sealing and cooling apparatus of Fig. 2. This figure also illustrates more clearly the manner in which the solid line ll of filled containers is guided by means of side rails "iii onto the turntable It, the rails 18 extending completely around the periphery of the turntable to provide complete loading thereon of filled containers.

In order to correlate the successive operations described generally in connection with Figs. 1(a) and 1(b) and performed by the apparatus disclosed generally in Figs. 2 and 3, there is illustrated in Fig. 4 a timing diagram wherein the sequence of successive operations performed by the apparatus of Fig. 2 are illustrated in terms of inches of travel of the conveyor 63. Thus, referring to Fig. 4, the containers are illustrated as being deposited upon the conveyor during the zone of travel indicated by the numeral 95, during which zone of travel the empty containers are deposited in container baskets of the conveyor apparatus and at the end of which zone of travel the conveyor gate associated with each container basket closes so as securely to hold the container for travel through the remaining filling, closing and sealing operations. Containers are then filled during travel through a succeeding zone 9|, following which they are conveyed through an end closure preheating zone illustrated by numeral {ii In the end closure preheating zone 92 the mouth portion of the container is heated along the score lines thereof so as to melt the paramn coating and prepare the mouth portion of the container for subsequent cracking and forming of the bellows.

After conditioning the mouth portion of the container for forming of the bellows end closure, the container is then conveyed to a bellows forming zone 93 in which the following sequence of operations takes place:

1. Cracking fingers move inwardly and downwardly to engage the apex of the score lines of the end panels (illustrated by the conveyor position 94).

2. Side folders move in and down to flatten the side panels and to form an upstanding, transversely extending closure rib (illustrated as occurring at 95).

3. Side folders are up and out (illustrated by the conveyor position 96).

4. Cracking fingers are up (illustrated by the conveyor position 93').

With the bellows thus preformed to approximately the correct configuration, the side panels are pressed downwardly in a bellows hold down zone 98 following which the closure flap is plowed to a horizontal position in the succeeding zone 99. After the flap has been folded to a horizontal position, the container is moved to a further plowing zone IIlIl where n the flap is folded to a substantially vertical position.

The container, which is now provided with a fully formed closure rib, is then conveyed through a sealing preheat zone IUI as has been discussed in connection with position F illustrated in Fig. 1(b). Containers, the closure ribs of which have been preheated to condition the same for final sealing, are then passed through heated sealing rollers in the zone indicated by the numeral H32. Following the pressure sealing zone Hi2 there is provided a cool ng zone 13 during travel through which the sealed closure ribs of the containers are cooled and set. The conveyor basket gate mechanism opens at position HM and the filled contain ers are pushed in a solid line through a discharging zone I85 to the loading turntable zone Itfi from which they may be removed by any suitable means.

Referring now in more detail to specific apparatus for accomplishing the above-described sequence of operations, there is illustrated in Fig. 5 the initial, or container receiving, end of the complete conveyor mechanism of Fig. 2. Thus, referring to Fig. 5, the conveyor sprocket wheel 52, the tooth line of wh ch is illustrated by the dotted line III], is illustrated as supported by a suitable shaft I I I which is journaled within the hearing I I 2. The container receiving area It I at one extremity of the supporting table 68, is utilized to deposit the conta ners on the conveyor apparatus. More specifically, the conveyor apparatus is provided with a series of container baskets, each of which comprises a platform member lit and associated end member Ill which cooperate with a hinged end member, or container basket gate lid, to form a U-shaped support, the end members of which engage the end walls of the supported container. The end gates I II, I Iii are of a width somewhat less than the correspond ng dimension of the container. Containers which are placed in the container baskets are guided endwise along the conveyor by means of upper and lower guide rails 1 I4, I I5, it being understood that a second set of guide rails, spaced from the guide rails are, H5 by an amount equal to the width of the container are utilized to guide the conta ner. The fixed base and end members H6, II! are supported on a base portion I it which is preferably made integral with a link of the conveyor chain indicated generally at its, successive base members H9 being supported by alternate links. The members III and H8 are preferably of a height just equal to or slightly below the score line ii of the container so that cracking of the end panels along the correct score line is obtained.

To control the movement of the hinged gate member II 8, there is provided a pivoted linkage indicated generally at IZI which terminates in a control roller I 22, the roller I22 being guided by means of cam guide rails I23, I25 so as to control the movement of the p'voted end member III; relative to the fixed end member Iii of a particular container basket. The cam guide rails I 23, I24 are positioned relative to the tooth center line I Ill of the sprocket wheel which supports the conveyor chain I25] so as to open up the container gate member IIS to receive a container. In this connection, it will be understood that the l'nks of the conveyor chain are held at a fixed radius by engagement with. the teeth of the sprocket wheel so that the cam guide rails I23, I'M may be conveniently adjusted with respect to the cen ter line of the teeth of the sprocket wheel to provide closure of the container basket gates in the proper timed sequence. As the end members of successive container baskets pass between the guide rals E It and M5, the containers are seated upon base and end members I It, i ii and the pivoted gate member I I8, which is controlled by roller I 22, is closed so as to secure the container between the end members IIl', H8 when the container basket reaches the horizontally extending upper run of the conveyor chain. Thus, when a container basket reaches the position immediately beneath the filling mechani m 20, the sides of the container support are fully closed so as to engage the container for travel through succeeding stations of the apparatus.

In Figs. 6, 7 and 8 there is illustrated in more detail a, particular one of the container baskets supported by alternate links of the conveyor chain. The container basket supporting link indicated generally at II9 comprises a pair of side Wall members I3I, I32. The uppermost portions of the side wall members Isl, I32 extend inwardly as indicated at I33 to form a platform portion on which is positioned the base member III of the container basket. The fixed end panel I Ill of the container basket is secured to the rear edge of base member IIB by any suitable means so as to provide a support for the bottom and rear end walls of the container. The remainder of the link H9 is formed by a sleeve I3 l which is positioned between and spaced apart the side wall members I3I, I32 and a linkage pin I35 which extends through the sleeve I34 and side wall members I3 I, I32 and through aligned apertures in the end portions of the next succeeding link its.

In order to allow bulging of the container when filled with liquid the end members Ill, H3 are preferably bowed outwardly so as to allow filling of the container by the desired amount without causing the liquid level to rise above the point of fold of the bellows type end closure of the container. As is clearly evident in Fig. 6 the end members H1, H8 are given a radius of curvature sufficient to accommodate the bulging walls of a filled container. With this arrangement, the volume of the container is maximized and the level of the liquid introduced into the container may be held below the score line 2I so that subsequent closure of the mouth portion of the container does not interfere with the liquid introduced into the container. In this connection, it will be understood that if the liquid level is above the score line on the side wall of the container, closure of the bellows type mouth portion will be hampered due to the excess of liquid in the area of folding the mouth portion. By providing the end members ill, lit with the above-described radius of curvature, the containers are 11 restrained from. upper movement due to the: fact thata'they' are tightly clamped between upperand loweredges of the end members, although pr visionis made for bulging. outwardly of the; contai'ner' .wallsrwhen the container is filled with liquid.

In order that the container basket may be opened automatically to receive and discharge containers therefrom, there is provided means for tilting the end wall member I I8 of the basket forwardly with respect to the remaining portion of the basket. To accomplish this, the front edge of the base member H6 is provided with a pair of depending ear portions IB'I which are provided with aligned aperture adapted to receive a control linkage shaft I38. The end wall H8 is provided with a. pair of lug portions I39 having aligned apertures therein adapted to receive the shaft I38. The end wall H3 is rigidly secured to the shaft I33 by any suitable means, such as, for example press fittin the lug portions onto the shaft. A first: control arm Hid is also rigidly secured to the. shaft I38 at. one end thereof. The control arm Hill is provided with an offset portion I lI. intermediate the length thereof, the oifset portion MI- being positioned within thecentrally located aperture in a second control arm I42. The control arms: Hill and M2 are provided with recesses Mt'which are positioned oneither side of the offset portion MI and which are adapted' to receive thev end portions of coil springs M l. To .adjust'the position of control arm MI? with respect to the. control arm I42 there is provided an adjustment screw Y Hi5 which threads through the end portion of control arm M0 into the aperture I63 and bears againsta washer Mil positioned between the coil spring I44 and the bottom of the. corresponding recess I43. I The screw Mdmaybe securedin its adjusted position by any convenient means such as the lock nut ME. By such an-arrangement the offset portion of control arm I it, whichis pivotally secured to the control arm I42 at I48, may be. adjusted to provide a particular positioning. of the end wall I18 relative to. the fixedmembers H6, II'I of. the containerbasket. By providing coil springs positioned between the. extremities of the control arms Mo and I42 the end Wall [I8 may be opened slightly understress so as to adapt to slight variations in the dimensions ofcontainers andalso toact as a shock absorber in the event that the containers receive a sharp impact during travel through the apparatus. 7 At thezends of the. conveyor run the roller I22; which is supported on the free end of the control arm I I42 and extends outwardly beyond the edge of the conveyor mechanism, engages: the cam guide rails I23, I24 (Fig. 5) so as to tilt therend wall I I8 forwardly withv respect; to the remainder ofthe container basket to facilitate receiving and dis! charging of the containers. In this connection, it. will be understood that the. control linkage comprising control arms I46. and I 42 operates substantially as a single control member in response to controlled movement of the projecting roller I22. However, by spring biasing individual members of the control linkage the container basketsmay readily adapt to containers of various sizes and a shock absorbing mounting of the containers is obtained.

In order to provide a rigid support for-the flexible conveyor chain and the container baskets carried thereby, and, to the end that the bellows type end closure may be held in a fully depressed condition by pressure onthe. top of. the closure" rib' thereof, there is provided means. for; supporting the individual links of the conveyor. chain throughout the upper run of the conveyor. Thus, as illustrated in Fig. 7 there is provided a supportin -member I58 which may be clamped toithe bottom surface of the supporting table GI! and which projects to a point immediately below the center line of the conveyor chain. The supporting member IE3 is provided with a track member. I5I which is narrower than the distance between the opposed side wall members I3-I, I32 of the container basket supporting links of the conveyor chain. The track I5I thus acts as a support upon which the sleeves I34 of the conveyor chain may ride.

In order to preheat. the bellows portion of. the. filledcontainer, there. is provided a. first preheating chamber, a detailed illustration of which is shown in Figs. 9 through 11. This preheating chamber, which has been designated generally by the reference. numeral 66. in connection with 2, is. illustrated in Fig. 11 as comprising a top wall. I60 having centrally located ventilating .aper-- tures Isl-located therein, a pair of side walls I62, I63 anda pairv of bottom masking members I64, I65 which are supported by the side walls I62, I63. Containers which have been filled are movedby means of the conveyor I20 downsthe center of the chamber 65. Positioned on. opposite sides of the-container path. there is provided a plurality of heating lamps IIiEiwhich are directed towards the scored mouth portion of themoving containers. The bottom members I64, I65 are so shaped as to mask the moving containers. below the end closure score lines thereof so that the heat radiated by lamps I56 is concentrated upon the score lines of the mouth portion of the container. The chamber 65 is further provided with a ventilating hood comprising aroof member I 61 supported by side members I68 and I69; the members I68, I69 being provided with spaced ventilating apertures ITO. Inorder further to concentrate the heat radiatedby the'lamps' I66, the open ends of the reflectors associated therewith are provided with masking members I'II, I12, the. masking members I'II, I12 defining a horizontally extending slot through which the heat energy may pass to the scored, foldable mouth portions of the container. The lamps I56 maybe controlled by suitable rheostat means by which the heat from all lamps is reduced equally.

As is well illustrated in Fig. 10, the heat lamps I66 are preferably positioned in opposed. pairs. For example, the rays of the lamps I15, I16 are directed toward each other so as to definena heating zone which will apply heat uniformly to the end and side panels of the passing containers.

Containers which have been preheated along the score lines of the mouth portion thereof are. next-conveyed to. the end panel cracking and side panel folding apparatus discussed generally in connection withposition C illustrated in Fig. Ma) and referred to generally by the numeral 67 in Fig. 2. The specific details of the cracking and folding apparatus 6'! and the plow apparatus associated therewith are illustrated more particularly in Fig. 12. In order to guide the containers after they emerge from the preheating chamber 66, and to position the containers for proper engagement with the mechanism 61 there is provided guide rails, two of which are indicated at I89, IBI, which are spaced apart by'the' width of the containers and extend in spaced parallel relation to the conveyor run throughout the remainder of the'folding, preheating and 

